Statistics of dislocation slip avalanches in nanosized single crystals show tuned critical behavior predicted by a simple mean field model

N Friedman, AT Jennings, G Tsekenis, JY Kim, M Tao… - Physical review …, 2012 - APS
We show that slowly sheared metallic nanocrystals deform via discrete strain bursts (slips),
whose size distributions follow power laws with stress-dependent cutoffs. We show for the …
被引用次数:239 相关文章

[引用][C] Statistics of Dislocation Slip Avalanches in Nanosized Single Crystals Show Tuned Critical Behavior Predicted by a Simple Mean Field Model

N Friedman, AT Jennings, G Tsekenis, JY Kim… - Physical Review …, 2012 - cir.nii.ac.jp
Statistics of Dislocation Slip Avalanches in Nanosized Single Crystals Show Tuned Critical
Behavior Predicted by a Simple Mean Field Model | CiNii Research CiNii 国立情報学研究所 …

Statistics of Dislocation Slip Avalanches in Nanosized Single Crystals Show Tuned Critical Behavior Predicted by a Simple Mean Field Model

N Friedman, AT Jennings, G Tsekenis… - Physical Review …, 2012 - ui.adsabs.harvard.edu
We show that slowly sheared metallic nanocrystals deform via discrete strain bursts (slips),
whose size distributions follow power laws with stress-dependent cutoffs. We show for the …

Statistics of dislocation slip avalanches in nanosized single crystals show tuned critical behavior predicted by a simple mean field model

N Friedman, AT Jennings, G Tsekenis… - Physical review …, 2012 - experts.illinois.edu
We show that slowly sheared metallic nanocrystals deform via discrete strain bursts (slips),
whose size distributions follow power laws with stress-dependent cutoffs. We show for the …
[PDF] unist.ac.kr

[PDF][PDF] Statistics of Dislocation Slip Avalanches in Nanosized Single Crystals Show Tuned Critical Behavior Predicted by a Simple Mean Field Model

N Friedman, AT Jennings, G Tsekenis, JY Kim, M Tao… - 2012 - scholarworks.unist.ac.kr
We show that slowly sheared metallic nanocrystals deform via discrete strain bursts (slips),
whose size distributions follow power laws with stress-dependent cutoffs. We show for the …
[PDF] gatech.edu

[PDF][PDF] Statistics of Dislocation Slip Avalanches in Nanosized Single Crystals Show Tuned Critical Behavior Predicted by a Simple Mean Field Model

N Friedman, AT Jennings, G Tsekenis, JY Kim, M Tao… - 2012 - mtao8.math.gatech.edu
We show that slowly sheared metallic nanocrystals deform via discrete strain bursts (slips),
whose size distributions follow power laws with stress-dependent cutoffs. We show for the …

[引用][C] Statistics of Dislocation Slip Avalanches in Nanosized Single Crystals Show Tuned Critical Behavior Predicted by a Simple Mean Field Model

N Friedman, AT Jennings, G Tsekenis, JY Kim… - Physical Review …, 2012 - par.nsf.gov

Statistics of dislocation slip avalanches in nanosized single crystals show tuned critical behavior predicted by a simple mean field model

N Friedman, AT Jennings, G Tsekenis… - Physical review …, 2012 - pubmed.ncbi.nlm.nih.gov
We show that slowly sheared metallic nanocrystals deform via discrete strain bursts (slips),
whose size distributions follow power laws with stress-dependent cutoffs. We show for the …
[PDF] archive.org

[PDF][PDF] Statistics of Dislocation Slip Avalanches in Nanosized Single Crystals Show Tuned Critical Behavior Predicted by a Simple Mean Field Model

N Friedman, AT Jennings, G Tsekenis, JY Kim, M Tao… - 2012 - scholar.archive.org
We show that slowly sheared metallic nanocrystals deform via discrete strain bursts (slips),
whose size distributions follow power laws with stress-dependent cutoffs. We show for the …
[PDF] caltech.edu

[PDF][PDF] Statistics of Dislocation Slip Avalanches in Nanosized Single Crystals Show Tuned Critical Behavior Predicted by a Simple Mean Field Model

N Friedman, AT Jennings, G Tsekenis, JY Kim, M Tao… - 2012 - authors.library.caltech.edu
We show that slowly sheared metallic nanocrystals deform via discrete strain bursts (slips),
whose size distributions follow power laws with stress-dependent cutoffs. We show for the …